Single LED or Multiple smaller LEDS is better

i totally agree, when you factor in all the requirements, efficiency, coverage, yield etc, LEDS are ahead now days.

prices coming down also make them more afforadable and a consideration for HPS users.

Its just getting around and understanding wattages, volts etc to piece it all together....but in saying that the advise offered on here by all, is second to none. and above all being accept as a nob is sincerely appreciated also.
 

VenomGrower6990

Well-Known Member
what does that mean 52V chips to? sorry for the silly question.
One way to look at the Forward voltage for a chip and Drivers is if you have a 36volt chip running @1.4amps it will be around 50 watts. The same 1.4amp driver will drive a 52volt chip at about 72 watts. Its Forward voltage of the cob chip times the driver amperage equals the wattage it will run. (36Vx1.4amps=50.4 watts). Same formula for the different Forward voltages on different drivers.
 

ttystikk

Well-Known Member
ttystickk, that vertical setup is great. Read some of the low ball comments, but honestly, its people like you that set an example where you try new ways and try to perfect them/improve them or on them. lol if people asked questions rather then low ball they would learn something.
Thank you. This is my life's work.
 
so by using the same driver to run a 54v chip at 72 watts means you would have to run less Chips on the 1.4amp driver?

and using the same driver (1.4amp) and lower "V" chips you can run more lights on the same driver?

does running them at higher watts still keeps there efficiency? or am i confusing the efficiency part now because being a 54V chip its efficiency level is at 72 watts already? (working from the formula you mentioned above 54v x 1.4amp)

I have read somewhere, silly of me not to have bookmarked it, that there is a efficiency break even point. Running a COB at over 50% power reduces there efficiency? draws more power with not much return? Sorry if it sounds mixed up, was something along those lines.

How do you work out when the driver max's out? (as in how many lights you puit on it/run off it) Do the driver have a "WATTS" max output and thats how you select the driver? Do the drivers have anything to do with efficiency or is it the Chip (COB LED)? Is the drive just to power the Chips?
 
Thank you. This is my life's work.
Really, we should be thanking you for sharing it with use and passing on your knowledge to others. Id be really proud of that and your accomplishments. It always needs one to lead, at least you are doing it, done it, and know it...
Certainly some tasteful reading and learning. Awesome work ttystikk.
 

VenomGrower6990

Well-Known Member
so by using the same driver to run a 54v chip at 72 watts means you would have to run less Chips on the 1.4amp driver?

and using the same driver (1.4amp) and lower "V" chips you can run more lights on the same driver?

does running them at higher watts still keeps there efficiency? or am i confusing the efficiency part now because being a 54V chip its efficiency level is at 72 watts already? (working from the formula you mentioned above 54v x 1.4amp)

I have read somewhere, silly of me not to have bookmarked it, that there is a efficiency break even point. Running a COB at over 50% power reduces there efficiency? draws more power with not much return? Sorry if it sounds mixed up, was something along those lines.

How do you work out when the driver max's out? (as in how many lights you puit on it/run off it) Do the driver have a "WATTS" max output and thats how you select the driver? Do the drivers have anything to do with efficiency or is it the Chip (COB LED)? Is the drive just to power the Chips?
Hammer_time watch this video it explains a lot. His channel has Tons of info for the LED DIY Cob community.
 
Top